Search Results for “test program and procedure” – Collected book of scientific-technical articles https://journal.yuzhnoye.com Space technology. Missile armaments Fri, 21 Jun 2024 08:15:40 +0000 en-GB hourly 1 https://journal.yuzhnoye.com/wp-content/uploads/2020/11/logo_1.svg Search Results for “test program and procedure” – Collected book of scientific-technical articles https://journal.yuzhnoye.com 32 32 15.1.2018 The Results of Using Automated Methods to Solve Standardization Tasks in Yuzhnoye SDO Practice https://journal.yuzhnoye.com/content_2018_1-en/annot_15_1_2018-en/ Tue, 05 Sep 2023 07:04:10 +0000 https://journal.yuzhnoye.com/?page_id=30474
Results of Using the Procedure of Terminological Monitoring for the Purpose of Normalization of Terms of International Standards in Space Sphere. Space Systems: Programme Management and Quality: Vocabulary.
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15. The Results of Using Automated Methods to Solve Standardization Tasks in Yuzhnoye SDO Practice

Organization:

Yangel Yuzhnoye State Design Office, Dnipro, Ukraine

Page: Kosm. teh. Raket. vooruž. 2018 (1); 91-100

DOI: https://doi.org/10.33136/stma2018.01.091

Language: Russian

Annotation: The article presents the main results obtained when solving the standardization tasks in Yuzhnoye SDO practice. The specific ways are presented of reducing the periods of work performance and increasing the accuracy of results due to the use of automated methods. The article also presents the recommendations in respect of sequence and methods of creating the standard data arrays, which allows optimizing the work process performance.

Key words:

Bibliography:
1. Matus G. V., Rud’ko K. V. Normalization of Terms of International Standards in Space Sphere. Standardization, Certification, Quality. 2013. No. 5. P. 19-24.
2. Shipko O. F., Matus G. V. Results of Using the Procedure of Terminological Monitoring for the Purpose of Normalization of Terms of International Standards in Space Sphere. Standardization, Certification, Quality. 2016. No. 3. P. 23-28.
3. ISO 10795:2011. Space Systems: Programme Management and Quality: Vocabulary. First edition 2011-08-15. Published in Switzerland: ISO, 2011. 37 p.
4. Classifier of Professions: DK 003:2010. (Effective from 2010-11-01). K., 2010. 746 p. (National Classifier of Ukraine).
5. Unified System of Design Documentation. Basic Provisions: Guide in Ukrainian and Russian / Under the general editorship of V. L. Ivanov. Lviv, 2001. 272 p. (Series “Normative Base of Enterprise”).
6. Streltsov E. V., Kolesnik N. Y. Method of Automated Monitoring of the State of Enterprise’s Normative Documentation Collection. Space Technology. Missile Armaments: Collection of scientific-technical articles / Yuzhnoye SDO. Dnepropetrovsk, 2015. No. 3. P. 99-102.
7. Fesenko E. Y., Kremena E. V. Design Documentation: Method of Automated Monitoring of Normative Documents Designations. Standardization, Certification, Quality. 2016. No. 2. P. 29-31.
8. The Law of Ukraine “On Standardization” dated 05.06.2014 No 1315-VII / News of Supreme Rada of Ukraine. 2014. No. 31. 1058 p. (With changes introduced as per Laws dated 15.01.2015 No. 124-VIII / News of Supreme Rada of Ukraine. 2015. No. 14. 96 p.).
9. Ukrainian Classifier of Normative Documents (ICS:2005, MOD): DK 004:2008. (Effective from 2009-04-01). К.: (Derzhspozhivstandard) State Consumption Standard of Ukraine, 2009. 97 p. (National Classifier of Ukraine).
10. Classification of Economic Activity Types: DK 009:2010. (Effective from 2012-01-01). К.: (Derzhspozhivstandard) State Consumption Standard of Ukraine, 2010. 42 p. (National Classifier of Ukraine).
11. State Classifier of Products and Services: DK 016:2010: [in 8 books]. (Effective from 2012-01-01). К.: (Derzhspozhivstandard) State Consumption Standard of Ukraine, 2010. (National Classifier of Ukraine). Book 1. 2011. 200 p. Book 2. 2011. 194 p. Book 3. 2011. 343 p. Book 4. 2011. 359 p. Book 5. 2011. 317 p. Book 6. 2011. 345 p. Book 7. 2011. 262 p. Book 8. 2011. 291 p.
12. Shipko A. F., Matus G. V. Methods to Improve Standardization Activity in Space Sphere. Space Technology. Missile Armaments: Collection of scientific-technical articles / Yuzhnoye SDO. Dnepropetrovsk, 2015. No. 3. P. 92-98.
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15.1.2018 The Results of Using Automated Methods to Solve Standardization Tasks in Yuzhnoye SDO Practice
15.1.2018 The Results of Using Automated Methods to Solve Standardization Tasks in Yuzhnoye SDO Practice
15.1.2018 The Results of Using Automated Methods to Solve Standardization Tasks in Yuzhnoye SDO Practice
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14.1.2018 A Rectangular Section Pipes Winding Programs Calculation Procedure https://journal.yuzhnoye.com/content_2018_1-en/annot_14_1_2018-en/ Tue, 05 Sep 2023 07:00:53 +0000 https://journal.yuzhnoye.com/?page_id=30472
...https://doi.org/10.33136/stma2018.01.085 Language: Russian Annotation: The paper presents the authors-developed technique for calculating the programs for winding the pipes of rectangular cross-section made of composite materials Key words: Bibliography: Full text (PDF) || ...Singapore; Singapore; Singapore; Singapore; Singapore 7 Unknown Lakemba; 2 Germany Frankfurt am Main; Falkenstein 2 Romania Voluntari 1 Netherlands Amsterdam 1 Ukraine Dnipro 1 Downloads, views for all articles Articles, downloads, views by all authors Articles for all companies Geography...
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14. On Selection of Materials for Creation of Modern LV Thermostating System Mating Hoses

Organization:

Yangel Yuzhnoye State Design Office, Dnipro, Ukraine

Page: Kosm. teh. Raket. vooruž. 2018 (1); 85-91

DOI: https://doi.org/10.33136/stma2018.01.085

Language: Russian

Annotation: The paper presents the authors-developed technique for calculating the programs for winding the pipes of rectangular cross-section made of composite materials

Key words:

Bibliography:
Downloads: 36
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699
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14.1.2018 A Rectangular Section Pipes Winding Programs Calculation Procedure
14.1.2018 A Rectangular Section Pipes Winding Programs Calculation Procedure
14.1.2018 A Rectangular Section Pipes Winding Programs Calculation Procedure
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11.1.2019 Peculiarities of Development Testing of Space Rocket Thermostating System Mating Points Hoses https://journal.yuzhnoye.com/content_2019_1-en/annot_11_1_2019-en/ Wed, 24 May 2023 16:00:11 +0000 https://journal.yuzhnoye.com/?page_id=27716
Key words: space launch system , launch site , launch complex , comprehensive development test program , test program and procedure , accelerated climatic tests , integrated tests Bibliography: 1. space launch system , launch site , launch complex , comprehensive development test program , test program and procedure , accelerated climatic tests , integrated tests .
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11. Peculiarities of Development Testing of Space Rocket Thermostating System Mating Points Hoses

Organization:

Yangel Yuzhnoye State Design Office, Dnipro, Ukraine1; State Enterprise DINTEM Ukrainian Research Design-Technological Institute of Elastomer Materials and Products2

Page: Kosm. teh. Raket. vooruž. 2019, (1); 76-80

DOI: https://doi.org/10.33136/stma2019.01.076

Language: Russian

Annotation: The range of problems of development testing of thermostating systems mating hoses for the needs of space rocketry building is most topical. In publications, insufficient attention is given to the presented range of problems. The purpose of this article is to fill in this gap. Testing of the hoses performed in accordance with comprehensive program implies a number of sequential tests and has its peculiarities. Generally, these are factory tests, participation in system and integrated tests and participation in flight tests of a space rocket. Special reference was made to the role of accelerated climatic tests, as a part of factory tests, to confirm warranty obligations for the hoses. In conclusion of the article, the concept was formulated on organization of development testing of space rockets thermostating systems hoses that reflects test peculiarities and the conclusion was made that conducting the testing of hoses according to the presented sequence ensures creation of articles that meet the requirements imposed.

Key words: space launch system, launch site, launch complex, comprehensive development test program, test program and procedure, accelerated climatic tests, integrated tests

Bibliography:

1. Degtyarev A. V., Kashanov A. E., Krivobokov L. V. Systemnyi podkhod k planirovaniyu eksperimentalnoy otrabotki novykh i modernizuemykh raket-nositeley /Systemnye technologii: Regional. mezhvuz. sb. nauch. trudov. 2011. 196 p.
2. Dunaev D. V., Krivobokov L. V. Obosnovanie vidov ispytaniy pri sozdaniy compleksnoi programmy eksperimentalnoy otrabotki typovoy rakety kosmicheskogo naznacheniya/ Aviatsionno-kosmicheskaya technika I technologia. №4. 2015. P. 26-31.
3. Dunaev D. V., Krivobokov L. V. Analiz matematicheskikh modeley otsenki nadezhnosti raketnoy techniki pri eksperimentalnoy otrabotke/ Kosmicheskaya technika. Raketnoe vooruzhenie: Sb. nauch.- techn. st. 2015. Vyp. 1. Dnepropetrovsk: GP KB «Yuzhnoye». P. 3-8.
4. Bigun S. O., Chorolskiy M. S. Shlyakhi stvorennya vuzliv stykuvannya system termostatuvannya raket kosmichnogo pryznachennya/ Cholodilna technika I technologia: Nauk.-techn. journal. 2018. T. 54. Vyp. 1. Odessa: ONAKhT. P. 27-30.
5. Bigun S. A., Skokov A. I. Razrabotka I sozdanie ustanovki dkya ispytaniy uzlov stykovki system termostatirovaniya raket-nositeley/ Kosmicheskaya technika. Raketnoye vooruzhenie: Sb. nauch.- techn. st. 2015. Vyp. 3. Dnepropetrovsk: GP KB «Yuzhnoye». P. 107-110.
6. Bigun S. A., Khorolskiy M. S. i dr. Eksperimentalnyie issledovania rezultatov otrabotrki uzlov stykovki systemy termostatirovania RKN Cyclone-4 / Kosmicheskaya technika. Raketnoye vooruzhenie: Sb. nauch.- techn. st. 2016. Vyp. 2. Dnepropetrovsk: GP KB «Yuzhnoye». P. 43-51.
7. KRK Cuclone-4. Rukava uzlov razovogo deistviya systemy termostatirovania 2G40 i rukava stykovki adaptera transportnoy systemy termostatirovania 2G20: Complexsnaya programma eksperimentalnoy otrabotki D4301.25009. 00.00 KPEO/GP UNIKTI DINTEM, GP KB «Yuzhnoye». 2011. 20 p.

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11.1.2019 Peculiarities of Development Testing of Space Rocket Thermostating System Mating Points Hoses
11.1.2019 Peculiarities of Development Testing of Space Rocket Thermostating System Mating Points Hoses
11.1.2019 Peculiarities of Development Testing of Space Rocket Thermostating System Mating Points Hoses

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20.1.2016 Determination of External Characteristic of Autonomous WPP for Regulation by Rotor Withdrawal from under Wind https://journal.yuzhnoye.com/content_2016_1/annot_20_1_2016-en/ Tue, 23 May 2023 13:15:41 +0000 https://journal.yuzhnoye.com/?page_id=27641
2016 (1); 122-127 Language: Russian Annotation: The procedure and program were developed for calculation of rotor external characteristic (rotor rotation frequency as a function of load moment and wind speed) for autonomous wind power plants operating according to the scheme of power regulation by rotor withdrawal from under wind.
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20. Determination of External Characteristic of Autonomous WPP for Regulation by Rotor Withdrawal from under Wind

Organization:

Yangel Yuzhnoye State Design Office, Dnipro, Ukraine

Page: Kosm. teh. Raket. vooruž. 2016 (1); 122-127

Language: Russian

Annotation: The procedure and program were developed for calculation of rotor external characteristic (rotor rotation frequency as a function of load moment and wind speed) for autonomous wind power plants operating according to the scheme of power regulation by rotor withdrawal from under wind.

Key words:

Bibliography:
Downloads: 38
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305
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20.1.2016 Determination of External Characteristic of Autonomous WPP for Regulation by Rotor Withdrawal from under Wind
20.1.2016 Determination of External Characteristic of Autonomous WPP for Regulation by Rotor Withdrawal from under Wind
20.1.2016 Determination of External Characteristic of Autonomous WPP for Regulation by Rotor Withdrawal from under Wind
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19.1.2016 Blade Geometry for Maximal Power Coefficient and Minimal Noise Level https://journal.yuzhnoye.com/content_2016_1/annot_19_1_2016-en/ Tue, 23 May 2023 13:14:53 +0000 https://journal.yuzhnoye.com/?page_id=27639
2016 (1); 117-121 Language: Russian Annotation: The earlier developed calculation procedure and program are considered that allow obtaining the blade geometry with optimal power coefficient and minimal noise level.
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19. Blade Geometry for Maximal Power Coefficient and Minimal Noise Level

Organization:

Yangel Yuzhnoye State Design Office, Dnipro, Ukraine

Page: Kosm. teh. Raket. vooruž. 2016 (1); 117-121

Language: Russian

Annotation: The earlier developed calculation procedure and program are considered that allow obtaining the blade geometry with optimal power coefficient and minimal noise level.

Key words:

Bibliography:
Downloads: 35
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178
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19.1.2016 Blade Geometry for Maximal Power Coefficient and Minimal Noise Level
19.1.2016 Blade Geometry for Maximal Power Coefficient and Minimal Noise Level
19.1.2016 Blade Geometry for Maximal Power Coefficient and Minimal Noise Level
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